SU773949A1 - Device for shaping bipolar telegraphic messages - Google Patents

Description

(541 DEVICE FOR FORMING BIPOLARS. The invention relates to telegraph and pulse technique and can be used in devices intended for philing and transmitting of polarized current pulses to a communication line. A device is known for forming bipolar telegraph parcels, containing the first and second optoelectronic switches connected in series I. However, the known device has a low accuracy in the formation of telegraphic parcels. The purpose of the invention is to improve the accuracy of the formation of telegraphic parcels. This goal is achieved by the fact that 3 devices for the formation of bipolar telegraph parcels containing serially connected first and second optoelectronic switches, six elements are introduced And a trigger, two delay elements, two error counters, an optoelectronic switch and four diodes, while the cathode the first of the diodes and the anode of the second diode are connected to the output of the first optoelectronic commutator of telegraph cells of the first diode connected to the first input of the optoelectronic switch and the third anode a diode, the cathode of which is connected to the anode of the fourth diode, the cathode of which is connected to the cathode of the second diode and the second input of an optoelectronic switch, the output of which is connected to the corresponding inputs of the first, second, third and fourth elements, whose corresponding input is combined with the corresponding inputs of the sixth and The second elements And, the output of which is connected to the first error counter, the outputs of the third and fourth elements And are connected to the corresponding inputs of the trigger, the outputs of which are connected according to Through the first and second delay elements with the corresponding inputs of the first and second elements AND, and directly with the corresponding inputs of the fifth and sixth elements AND, the outputs of which are connected respectively to the inputs of the first and second optoelectronic compression switch 1s of the third, fifth and first elements And The second error counter is connected to the output of the first element.

The drawing shows a structural electrical circuit of a device for forming bipolar telegraph packages.

The device contains the first 1 and second 2 optoelectronic switches of the six I elements: the first 3, the second 4, the third 5, the fourth b, the fifth 7, the sixth 8, the trigger 9, the first 10 and the second 11 delay elements, the first 12 and the second 13 error counters , optoelectronic switch 14 and four diodes: the first 15, the second 16, the third 17, the fourth; 18. The device input is the input terminals 19 and 20. The load of the device 2jL is a resistor. The optoelectronic switch 14 contains a LED 22,

A device for forming bipolar telegraph packages works as follows,

In the initial state (in the absence of information transfer), logic zeros (O) are present at the input terminals 19 and 20. At the same time, logical O are also present at the outputs of elements And, because at least one of the inputs of these elements is logical O. As a result, optoelectronic switches 1 and 2 are closed, the current in the load 21 and the LEDs 22 of the optoelectronic switch 14 do not leak 12 and 13 errors do not work j on both inputs of flip-flop 9 there are logical O, the flip-flop is in the state that is set when the voltage is turned on (for example on its first output o).

Due to the absence of current through the LED 22 at the output of the optoelectronic switch 14, and hence at the first inputs of the elements And 3-6 at. there is no logical unit (1).

In the process of transmitting information to the input terminals 19 and 20, the control signals from in front of them increase in antiphase. Upon arrival at terminal 19 of logical 1, and at terminal 20, logical O (transmission of a stop parcel) at the second input of the third element And 5 appears logical 1. At the same time at both inputs of the third element And 5 logical 1, at the output of this element logical 1 is generated and the trigger 9 is set to the state in which logical 1 appears at its first (left) output. At the same time, a logical

1, with the result that this element is turned on and transmits a current through the LED at the first optoelectronic switch 1. This leads to the inclusion of the first optoelectronic switch.

the comm. tator 1 and the current of the positive direction in the load 21, This current flows through the LED 22 of the optoelectronic switch 14, as a result of which the latter is turned on and a logical O appears at its output.

the output of the third element And 5 is set to logical O, at the outputs of the first 3, second 4 and fourth) 6 elements And the logical O is saved, the state of the trigger 9 does not change,

Upon receipt at terminal 19 of the logical O and simultaneous arrival at terminal 20 of the logical 1 (transfer of the starting parcel),

5 A logical O appears at the second input of the fifth element I 7 and, accordingly, at its output, as a result of which the first optoelectronic switch 1 begins to turn off. Since the first optoelectronic switch 1 has a certain off time, current through it, and through the LED 22 proceeds even after the logical O is received at the second input of the fifth element AND 7 during the switching off time of the first optoelectronic switch 1, during this time from the output of the optoelectronic switch 14 to the first input of the fourth element And 6

logical O,

as a result, the trigger 9 cannot change its state, and therefore at the first input of the sixth element And 8 there is a logical O and it is possible to switch on the second optoelectronic switch 2, despite the fact that the input terminal

20 logical 1 is present

After the first 0 optoelectronic switch 1 is completely turned off and the positive current flows through the load,

21 and the LED 22, an optoelectronic switch. 14 turns off and on

45 the first input of the fourth element And 6 appears logical 1, at its second input logical 1 is already present, with the simultaneous presence at both inputs of the fourth element 50 And 6 logical 1, the output of this element produces a logical

. 1, which sets the trigger 9 to the state in which logical 1 appears at its second output. In this case, logical 1 is present at both inputs of the sixth element And 8, as a result of which the element is turned on and transmits current through the second optoelectronic LED switch 2, This leads to the inclusion of a second optoelectronic switch 2 and the appearance of a negative current in the load 21,

Considering the fact that the inclusion

Claims (1)

1. Gorokhov VA, Functional classification and circuit design of integrated optoelectronic switches. Sat Semiconductor electronics in communication technology. Ed. I.f, Nikolaevsky. Issue 18, M., Svy, 1977, pp. 185-208.